use a clamper and try not to use clipper..
first we connect the oscilloscope with the function generator or whatever the source of the input voltage , there will be a wave ,we try to adjust its amplitude using oscilloscope ..and this amplitude will be the peak to peak voltage..putting into consideration how volt/ div while measuring the amplitude
clamper
It depends on the power input.
The amplitude of a wave depends on the energy of the source creating the wave. It represents the maximum displacement or distance from the equilibrium position of a particle in the medium through which the wave is traveling. A higher energy input results in a larger amplitude wave.
A negative clamper circuit is considered. It shifts original input signal in a downward direction.While positive input is applied, diode is forward biased. The output voltage is Vo which is equal barrier potential of the diode. The capacitor is charged to V-Vo.When negative input cycle, diode does not conduct because it is reverse biased and the capacitor can not discharge very much because time constant (RC) choosen is high. Now output is sum of input voltage and capacitor voltage and it is equal to -(2V - Vo). Now peak to peak output voltage is difference of output voltages when positive and negative half cycles and it is equal to V-(-(2V - Vo)) or 2V.In negative clamper, input signal is pushed downward and positive peak of the output signal coincides with zero level.In positive clamper circuit, unlike in negative clamper circuit, diode is connected reversely.There is no change in connection of capacitor. But resistor is connected after diode. Positive clamping circuit shifts a input signal in upward direction. The output of this circuit shows that negative peak of signal coincides with zero level.
Amplitude can increase in an amplifier by boosting the strength of the input signal. This is typically achieved by providing additional power to the signal through the amplifier, causing the output to have a higher amplitude than the input. The amplifier amplifies the signal by multiplying it by a constant factor known as the gain, which determines how much the amplitude is increased.
The amplitude of a wave can change due to factors like interference, damping, or changes in energy input. Interference can result in constructive or destructive interference patterns that affect amplitude. Damping occurs when energy is gradually lost from the system, causing the amplitude to decrease over time. An increase in energy input can result in a higher amplitude wave.
A clamper circuit is an electrical circuit that shifts the DC level of a signal. It consists of a diode, capacitor, and resistor. When a positive or negative peak in the input signal is detected, the capacitor charges or discharges to shift the DC level. This allows the output signal to oscillate around the desired DC level.
You can decrease the amplitude of a water wave by reducing the energy input causing the wave, such as by decreasing the wind speed or stopping the source of disturbance. Another way is to increase the distance the wave travels, as wave energy dissipates over a greater distance, resulting in a decrease in amplitude. Additionally, adding obstacles that absorb some of the wave energy can also help decrease the wave's amplitude.
A series circuit will be wired from the power source at the positive input of the first device, the second device will receive power from the output of the first device and then go back to ground. A parallel circuit is wired so that both devices receive power from the power source directly to the positive input and both are wired directly to ground.
a phase shifted sine wave of a different amplitude.
the amlitude of the input signal 10 volt peak to peak was set at 10 khz